Abstract
AbstractPhytosaurs are a group of large, semi‐aquatic archosaurian reptiles from the Middle–Late Triassic. They have often been interpreted as carnivorous or piscivorous due to their large size, morphological similarity to extant crocodilians and preservation in fluvial, lacustrine and coastal deposits. However, these dietary hypotheses are difficult to test, meaning that phytosaur ecologies and their roles in Triassic food webs remain incompletely constrained. Here, we apply dental microwear textural analysis to the three‐dimensional sub‐micrometre scale tooth surface textures that form during food consumption to provide the first quantitative dietary constraints for five species of phytosaur. We furthermore explore the impacts of tooth position and cranial robustness on phytosaur microwear textures. We find subtle systematic texture differences between teeth from different positions along phytosaur tooth rows, which we interpret to be the result of different loading pressures experienced during food consumption, rather than functional partitioning of food processing along tooth rows. We find rougher microwear textures in morphologically robust taxa. This may be the result of seizing and processing larger prey items compared to those captured by gracile taxa, rather than dietary differences per se. We reveal relatively low dietary diversity between our study phytosaurs and that individual species show a lack of dietary specialization. Species are predominantly carnivorous and/or piscivorous, with two taxa exhibiting slight preferences for ‘harder’ invertebrates. Our results provide strong evidence for higher degrees of ecological convergence between phytosaurs and extant crocodilians than previously appreciated, furthering our understanding of the functioning and evolution of Triassic ecosystems.
Highlights
PHYTOSAURS are an important clade of extinct archosauriform reptiles from the Middle–Late Triassic (c. 240–201 Ma; Stocker et al 2017; Jones & Butler 2018)
This has resulted in numerous suggestions of ecological convergence between phytosaurs and crocodiles, with phytosaurs almost universally regarded as semi-aquatic carnivores and/or piscivores in Triassic food webs (Camp 1930; Colbert et al 1947; Eaton 1965; Chatterjee 1978; Hunt 1989; Hungerbu€hler 1998, 2000; Li et al 2012; Stocker & Butler 2013)
Tooth microwear textures were sampled from five phytosaur species: Machaeroprosopus pristinus, Mystriosuchus planirostris, Nicrosaurus kapffi, N. meyeri and ‘Smilosuchus lithodendrorum’; see Bestwick et al (2020b, table S1) for the complete specimen list
Summary
PHYTOSAURS are an important clade of extinct archosauriform reptiles from the Middle–Late Triassic (c. 240–201 Ma; Stocker et al 2017; Jones & Butler 2018). Numerous skeletal similarities have been described between phytosaurs and modern crocodilians, including their large body size, elongated rostra, conical teeth and overall body shape (Chatterjee 1978; Stocker 2012; Witzmann et al 2014) This has resulted in numerous suggestions of ecological convergence between phytosaurs and crocodiles, with phytosaurs almost universally regarded as semi-aquatic carnivores and/or piscivores in Triassic food webs (Camp 1930; Colbert et al 1947; Eaton 1965; Chatterjee 1978; Hunt 1989; Hungerbu€hler 1998, 2000; Li et al 2012; Stocker & Butler 2013). The known relationships between microwear texture and diet in extant reptiles provides us with a robust multivariate framework with which to quantitatively test and constrain phytosaur dietary hypotheses using DMTA (Bestwick et al 2020a)
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